﻿// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.

using System.Collections;
using System.Drawing;
using System.Private.Windows.BinaryFormat.Serializer;
using System.Reflection;
using System.Runtime.CompilerServices;
using System.Runtime.Serialization;

namespace System.Private.Windows.BinaryFormat;

/// <summary>
///  Writer that writes specific types in binary format without using the BinaryFormatter.
/// </summary>
internal static class BinaryFormatWriter
{
    private static readonly string[] s_hashtableMemberNames =
    [
        "LoadFactor", "Version", "Comparer", "HashCodeProvider", "HashSize", "Keys", "Values"
    ];

    private static readonly string[] s_notSupportedExceptionMemberNames =
    [
        "ClassName", "Message", "Data", "InnerException", "HelpURL", "StackTraceString", "RemoteStackTraceString",
        "RemoteStackIndex", "ExceptionMethod", "HResult", "Source", "WatsonBuckets"
    ];

    private static readonly string[] s_listMemberNames = ["_items", "_size", "_version"];
    private static readonly string[] s_decimalMemberNames = ["flags", "hi", "lo", "mid"];
    private static readonly string[] s_dateTimeMemberNames = ["ticks", "dateData"];
    private static readonly string[] s_primitiveMemberName = ["m_value"];
    private static readonly string[] s_pointMemberNames = ["x", "y"];
    private static readonly string[] s_rectangleMemberNames = ["x", "y", "width", "height"];
    private static readonly string[] s_sizeMemberNames = ["width", "height"];
    private static readonly string[] s_colorMemberNames = ["name", "value", "knownColor", "state"];
    private static readonly string[] s_valueName = ["value"];
    private static readonly string[] s_ticksName = ["_ticks"];

    /// <summary>
    ///  Writes a <see langword="string"/> in binary format.
    /// </summary>
    public static void WriteString(Stream stream, string value)
    {
        using BinaryFormatWriterScope writer = new(stream);
        new BinaryObjectString(1, value).Write(writer);
    }

    /// <summary>
    ///  Writes a <see langword="decimal"/> in binary format.
    /// </summary>
    public static void WriteDecimal(Stream stream, decimal value)
    {
        Span<int> ints = stackalloc int[4];
        decimal.TryGetBits(value, ints, out _);

        using BinaryFormatWriterScope writer = new(stream);

        new SystemClassWithMembersAndTypes(
            new ClassInfo(1, typeof(decimal).FullName!, s_decimalMemberNames),
            new MemberTypeInfo[]
            {
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.Primitive, PrimitiveType.Int32)
            },
            ints[3],
            ints[2],
            ints[0],
            ints[1]).Write(writer);
    }

    /// <summary>
    ///  Writes a <see cref="DateTime"/> in binary format.
    /// </summary>
    public static void WriteDateTime(Stream stream, DateTime value)
    {
        using BinaryFormatWriterScope writer = new(stream);

        // We could use ISerializable here to get the data, but it is pretty
        // heavy weight, and the internals of DateTime should never change.

        new SystemClassWithMembersAndTypes(
            new ClassInfo(1, typeof(DateTime).FullName!, s_dateTimeMemberNames),
            new MemberTypeInfo[]
            {
                new(BinaryType.Primitive, PrimitiveType.Int64),
                new(BinaryType.Primitive, PrimitiveType.UInt64)
            },
            value.Ticks,
            Unsafe.As<DateTime, ulong>(ref value)).Write(writer);
    }

    /// <summary>
    ///  Writes a <see cref="TimeSpan"/> in binary format.
    /// </summary>
    public static void WriteTimeSpan(Stream stream, TimeSpan value)
    {
        using BinaryFormatWriterScope writer = new(stream);
        new SystemClassWithMembersAndTypes(
            new ClassInfo(1, typeof(TimeSpan).FullName!, s_ticksName),
            new MemberTypeInfo[] { new(BinaryType.Primitive, PrimitiveType.Int64) },
            value.Ticks).Write(writer);
    }

    /// <summary>
    ///  Writes a nint in binary format.
    /// </summary>
    public static void WriteNativeInt(Stream stream, nint value)
    {
        using BinaryFormatWriterScope writer = new(stream);
        new SystemClassWithMembersAndTypes(
            new ClassInfo(1, typeof(nint).FullName!, s_valueName),
            new MemberTypeInfo[] { new(BinaryType.Primitive, PrimitiveType.Int64) },
            (long)value).Write(writer);
    }

    /// <summary>
    ///  Writes a nuint in binary format.
    /// </summary>
    public static void WriteNativeUInt(Stream stream, nuint value)
    {
        using BinaryFormatWriterScope writer = new(stream);
        new SystemClassWithMembersAndTypes(
            new ClassInfo(1, typeof(nuint).FullName!, s_valueName),
            new MemberTypeInfo[] { new(BinaryType.Primitive, PrimitiveType.UInt64) },
            (ulong)value).Write(writer);
    }

    /// <summary>
    ///  Writes a <see cref="Point"/> in binary format.
    /// </summary>
    public static void WritePoint(Stream stream, Point value)
    {
        using BinaryFormatWriterScope writer = new(stream);
        new BinaryLibrary(2, Assemblies.SystemDrawing).Write(writer);
        new ClassWithMembersAndTypes(
            new ClassInfo(1, typeof(Point).FullName!, s_pointMemberNames),
            libraryId: 2,
            new MemberTypeInfo[]
            {
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.Primitive, PrimitiveType.Int32)
            },
            value.X,
            value.Y).Write(writer);
    }

    /// <summary>
    ///  Writes a <see cref="Rectangle"/> in binary format.
    /// </summary>
    public static void WriteRectangle(Stream stream, Rectangle value)
    {
        using BinaryFormatWriterScope writer = new(stream);
        new BinaryLibrary(2, Assemblies.SystemDrawing).Write(writer);
        new ClassWithMembersAndTypes(
            new ClassInfo(1, typeof(Rectangle).FullName!, s_rectangleMemberNames),
            libraryId: 2,
            new MemberTypeInfo[]
            {
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.Primitive, PrimitiveType.Int32)
            },
            value.X,
            value.Y,
            value.Width,
            value.Height).Write(writer);
    }

    /// <summary>
    ///  Writes a <see cref="Size"/> in binary format.
    /// </summary>
    public static void WriteSize(Stream stream, Size value)
    {
        using BinaryFormatWriterScope writer = new(stream);
        new BinaryLibrary(2, Assemblies.SystemDrawing).Write(writer);
        new ClassWithMembersAndTypes(
            new ClassInfo(1, typeof(Size).FullName!, s_sizeMemberNames),
            libraryId: 2,
            new MemberTypeInfo[]
            {
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.Primitive, PrimitiveType.Int32)
            },
            value.Width,
            value.Height).Write(writer);
    }

    /// <summary>
    ///  Writes a <see cref="PointF"/> in binary format.
    /// </summary>
    public static void WritePointF(Stream stream, PointF value)
    {
        using BinaryFormatWriterScope writer = new(stream);
        new BinaryLibrary(2, Assemblies.SystemDrawing).Write(writer);
        new ClassWithMembersAndTypes(
            new ClassInfo(1, typeof(PointF).FullName!, s_pointMemberNames),
            libraryId: 2,
            new MemberTypeInfo[]
            {
                new(BinaryType.Primitive, PrimitiveType.Single),
                new(BinaryType.Primitive, PrimitiveType.Single)
            },
            value.X,
            value.Y).Write(writer);
    }

    /// <summary>
    ///  Writes a <see cref="RectangleF"/> in binary format.
    /// </summary>
    public static void WriteRectangleF(Stream stream, RectangleF value)
    {
        using BinaryFormatWriterScope writer = new(stream);
        new BinaryLibrary(2, Assemblies.SystemDrawing).Write(writer);
        new ClassWithMembersAndTypes(
            new ClassInfo(1, typeof(RectangleF).FullName!, s_rectangleMemberNames),
            libraryId: 2,
            new MemberTypeInfo[]
            {
                new(BinaryType.Primitive, PrimitiveType.Single),
                new(BinaryType.Primitive, PrimitiveType.Single),
                new(BinaryType.Primitive, PrimitiveType.Single),
                new(BinaryType.Primitive, PrimitiveType.Single)
            },
            value.X,
            value.Y,
            value.Width,
            value.Height).Write(writer);
    }

    /// <summary>
    ///  Writes a <see cref="SizeF"/> in binary format.
    /// </summary>
    public static void WriteSizeF(Stream stream, SizeF value)
    {
        using BinaryFormatWriterScope writer = new(stream);
        new BinaryLibrary(2, Assemblies.SystemDrawing).Write(writer);
        new ClassWithMembersAndTypes(
            new ClassInfo(1, typeof(SizeF).FullName!, s_sizeMemberNames),
            libraryId: 2,
            new MemberTypeInfo[]
            {
                new(BinaryType.Primitive, PrimitiveType.Single),
                new(BinaryType.Primitive, PrimitiveType.Single)
            },
            value.Width,
            value.Height).Write(writer);
    }

    /// <summary>
    ///  Writes a <see cref="Color"/> in binary format.
    /// </summary>
    public static void WriteColor(Stream stream, Color value)
    {
        using BinaryFormatWriterScope writer = new(stream);
        new BinaryLibrary(2, Assemblies.SystemDrawing).Write(writer);
        new ClassWithMembersAndTypes(
            new ClassInfo(1, typeof(Color).FullName!, s_colorMemberNames),
            libraryId: 2,
            new MemberTypeInfo[]
            {
                new(BinaryType.String, null),
                new(BinaryType.Primitive, PrimitiveType.Int64),
                new(BinaryType.Primitive, PrimitiveType.Int16),
                new(BinaryType.Primitive, PrimitiveType.Int16)
            },
            new List<object?>
            {
                typeof(Color).GetField("name", BindingFlags.NonPublic | BindingFlags.Instance)!.GetValue(value) is not string name ? null : new BinaryObjectString(2, name),
                (long)typeof(Color).GetField("value", BindingFlags.NonPublic | BindingFlags.Instance)!.GetValue(value)!,
                (short)typeof(Color).GetField("knownColor", BindingFlags.NonPublic | BindingFlags.Instance)!.GetValue(value)!,
                (short)typeof(Color).GetField("state", BindingFlags.NonPublic | BindingFlags.Instance)!.GetValue(value)!
            }).Write(writer);
    }

    /// <summary>
    ///  Attempts to write a <see cref="PrimitiveType"/> value in binary format.
    /// </summary>
    /// <returns><see langword="true"/> if successful.</returns>
    public static bool TryWritePrimitive(Stream stream, object primitive)
        => TryWrite(WritePrimitive, stream, primitive);

    /// <summary>
    ///  Writes a .NET primitive value in binary format.
    /// </summary>
    /// <exception cref="ArgumentException">
    ///  <paramref name="primitive"/> is not a a primitive value.
    /// </exception>
    public static void WritePrimitive(Stream stream, object primitive)
    {
        Type type = primitive.GetType();
        PrimitiveType primitiveType = type.GetPrimitiveType();

        if (primitiveType == default)
        {
            // These two are considered primitive by .NET but not the binary format spec
            switch (primitive)
            {
                case nint nativeInt:
                    WriteNativeInt(stream, nativeInt);
                    return;
                case nuint nativeUint:
                    WriteNativeUInt(stream, nativeUint);
                    return;
            }

            throw new ArgumentException($"{nameof(primitive)} is not primitive.");
        }

        // These are handled differently from the rest of the primitive types when serialized on their own.
        switch (primitiveType)
        {
            case PrimitiveType.String:
                WriteString(stream, (string)primitive);
                return;
            case PrimitiveType.Decimal:
                WriteDecimal(stream, (decimal)primitive);
                return;
            case PrimitiveType.DateTime:
                WriteDateTime(stream, (DateTime)primitive);
                return;
            case PrimitiveType.TimeSpan:
                WriteTimeSpan(stream, (TimeSpan)primitive);
                return;
        }

        using BinaryFormatWriterScope writer = new(stream);
        new SystemClassWithMembersAndTypes(
            new ClassInfo(1, type.FullName!, s_primitiveMemberName),
            new MemberTypeInfo[] { new(BinaryType.Primitive, primitiveType) },
            primitive).Write(writer);
    }

    /// <summary>
    ///  Writes a <see cref="List{String}"/> in binary format.
    /// </summary>
    public static void WriteStringList(Stream stream, List<string> list)
    {
        using BinaryFormatWriterScope writer = new(stream);

        new SystemClassWithMembersAndTypes(
            new ClassInfo(
                1,
                $"System.Collections.Generic.List`1[[{Types.StringType}, {Assemblies.Mscorlib}]]",
                s_listMemberNames),
            new MemberTypeInfo[]
            {
                new(BinaryType.StringArray, null),
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.Primitive, PrimitiveType.Int32)
            },
            new MemberReference(2),
            list.Count,
            // _version doesn't matter
            0).Write(writer);

        StringRecordsCollection strings = new(currentId: 3);

        new ArraySingleString(2, new ListConverter<string, object?>(list, strings.GetStringRecord), strings).Write(writer);
    }

    /// <summary>
    ///  Writes a primitive list in binary format.
    /// </summary>
    public static void WritePrimitiveList<T>(Stream stream, List<T> list)
        where T : unmanaged
    {
        PrimitiveType primitiveType = typeof(T).GetPrimitiveType();
        if (primitiveType == default)
        {
            throw new NotSupportedException($"{nameof(T)} is not primitive.");
        }

        using BinaryFormatWriterScope writer = new(stream);

        new SystemClassWithMembersAndTypes(
            new ClassInfo(
                1,
                $"System.Collections.Generic.List`1[[{typeof(T).FullName}, {Assemblies.Mscorlib}]]",
                s_listMemberNames),
            new MemberTypeInfo[]
            {
                new(BinaryType.PrimitiveArray, primitiveType),
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.Primitive, PrimitiveType.Int32)
            },
            new MemberReference(2),
            list.Count,
            // _version doesn't matter
            0).Write(writer);

        new ArraySinglePrimitive<T>(2, list).Write(writer);
    }

    /// <summary>
    ///  Writes the given <paramref name="list"/> in binary format if supported.
    /// </summary>
    public static bool TryWritePrimitiveList(Stream stream, IList list)
    {
        Type type = list.GetType();
        return type.IsGenericType
            && type.GetGenericTypeDefinition() == typeof(List<>)
            && TryWrite(Write, stream, list);

        static bool Write(Stream stream, IList list)
        {
            switch (list)
            {
                case List<string> typedList:
                    WriteStringList(stream, typedList);
                    return true;
                case List<int> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<byte> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<sbyte> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<short> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<ushort> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<uint> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<long> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<ulong> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<float> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<double> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<decimal> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<DateTime> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<TimeSpan> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<char> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
                case List<bool> typedList:
                    WritePrimitiveList(stream, typedList);
                    return true;
            }

            return false;
        }
    }

    /// <summary>
    ///  Writes the given <paramref name="list"/> in binary format if supported.
    /// </summary>
    public static bool TryWriteArrayList(Stream stream, ArrayList list)
    {
        return TryWrite(Write, stream, list);

        static bool Write(Stream stream, ArrayList list)
        {
            using BinaryFormatWriterScope writer = new(stream);
            new SystemClassWithMembersAndTypes(
                new ClassInfo(1, typeof(ArrayList).FullName!, s_listMemberNames),
                new MemberTypeInfo[]
                {
                    new(BinaryType.ObjectArray, null),
                    new(BinaryType.Primitive, PrimitiveType.Int32),
                    new(BinaryType.Primitive, PrimitiveType.Int32)
                },
                new MemberReference(2),
                list.Count,
                // _version doesn't matter
                0).Write(writer);

            new ArraySingleObject(
                2,
                ListConverter.GetPrimitiveConverter(list, new StringRecordsCollection(currentId: 3))).Write(writer);

            return true;
        }
    }

    /// <summary>
    ///  Writes the given <paramref name="array"/> in binary format if supported.
    /// </summary>
    public static bool TryWriteArray(Stream stream, Array array)
    {
        return TryWrite(Write, stream, array);

        static bool Write(Stream stream, Array array)
        {
            PrimitiveType primitiveType = array.GetType().GetElementType()!.GetPrimitiveType();

            if (primitiveType == default)
            {
                return false;
            }

            using BinaryFormatWriterScope writer = new(stream);
            if (primitiveType == PrimitiveType.String)
            {
                StringRecordsCollection strings = new(currentId: 2);
                new ArraySingleString(1, ListConverter.GetPrimitiveConverter(array, strings), strings).Write(writer);
                return true;
            }

            IWritableRecord record = primitiveType switch
            {
                PrimitiveType.Boolean => new ArraySinglePrimitive<bool>(
                    1, new ListConverter<object, bool>(array, o => (bool)o!)),
                PrimitiveType.Char => new ArraySinglePrimitive<char>(
                    1, new ListConverter<object, char>(array, o => (char)o!)),
                PrimitiveType.Byte => new ArraySinglePrimitive<byte>(
                    1, new ListConverter<object, byte>(array, o => (byte)o!)),
                PrimitiveType.SByte => new ArraySinglePrimitive<sbyte>(
                    1, new ListConverter<object, sbyte>(array, o => (sbyte)o!)),
                PrimitiveType.Int16 => new ArraySinglePrimitive<short>(
                    1, new ListConverter<object, short>(array, o => (short)o!)),
                PrimitiveType.Int32 => new ArraySinglePrimitive<int>(
                    1, new ListConverter<object, int>(array, o => (int)o!)),
                PrimitiveType.Int64 => new ArraySinglePrimitive<long>(
                    1, new ListConverter<object, long>(array, o => (long)o!)),
                PrimitiveType.UInt16 => new ArraySinglePrimitive<ushort>(
                    1, new ListConverter<object, ushort>(array, o => (ushort)o!)),
                PrimitiveType.UInt32 => new ArraySinglePrimitive<uint>(
                    1, new ListConverter<object, uint>(array, o => (uint)o!)),
                PrimitiveType.UInt64 => new ArraySinglePrimitive<ulong>(
                    1, new ListConverter<object, ulong>(array, o => (ulong)o!)),
                PrimitiveType.Single => new ArraySinglePrimitive<float>(
                    1, new ListConverter<object, float>(array, o => (float)o!)),
                PrimitiveType.Double => new ArraySinglePrimitive<double>(
                    1, new ListConverter<object, double>(array, o => (double)o!)),
                PrimitiveType.Decimal => new ArraySinglePrimitive<decimal>(
                    1, new ListConverter<object, decimal>(array, o => (decimal)o!)),
                PrimitiveType.TimeSpan => new ArraySinglePrimitive<TimeSpan>(
                    1, new ListConverter<object, TimeSpan>(array, o => (TimeSpan)o!)),
                PrimitiveType.DateTime => new ArraySinglePrimitive<DateTime>(
                    1, new ListConverter<object, DateTime>(array, o => (DateTime)o!)),
                _ => throw new InvalidOperationException()
            };

            record.Write(writer);

            return true;
        }
    }

    /// <summary>
    ///  Tries to write the given <paramref name="hashtable"/> if supported.
    /// </summary>
    public static bool TryWriteHashtable(Stream stream, Hashtable hashtable)
        => TryWrite(WritePrimitiveHashtable, stream, hashtable);

    /// <summary>
    ///  Writes a <see cref="Hashtable"/> of primitive to primitive values to the given stream in binary format.
    /// </summary>
    /// <remarks>
    ///  <para>
    ///   Primitive types are anything in the <see cref="PrimitiveType"/> enum.
    ///  </para>
    /// </remarks>
    /// <exception cref="ArgumentException">
    ///  <paramref name="hashtable"/> contained non-primitive values or a custom comparer or hash code provider.
    /// </exception>
    public static void WritePrimitiveHashtable(Stream stream, Hashtable hashtable)
    {
        // Get the ISerializable data from the hashtable. This way we don't have to worry about
        // getting the LoadFactor, Version, etc. wrong.
#pragma warning disable SYSLIB0050 // Type or member is obsolete
        SerializationInfo info = new(typeof(Hashtable), FormatterConverterStub.Instance);
#pragma warning restore SYSLIB0050
#pragma warning disable SYSLIB0051 // Type or member is obsolete
        hashtable.GetObjectData(info, default);
#pragma warning restore SYSLIB0051

        if (info.GetValue<object?>("Comparer") is not null
            || info.GetValue<object?>("HashCodeProvider") is not null)
        {
            throw new ArgumentException("Hashtable has custom Comparer or HashCodeProvider.", nameof(hashtable));
        }

        // Build up the key and value data
        object[] keys = info.GetValue<object[]>("Keys")!;
        object?[] values = info.GetValue<object?[]>("Values")!;

        using BinaryFormatWriterScope writer = new(stream);

        new SystemClassWithMembersAndTypes(
            new ClassInfo(1, Types.HashtableType, s_hashtableMemberNames),
            new MemberTypeInfo[]
            {
                new(BinaryType.Primitive, PrimitiveType.Single),
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.SystemClass, "System.Collections.IComparer"),
                new(BinaryType.SystemClass, "System.Collections.IHashCodeProvider"),
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.ObjectArray, null),
                new(BinaryType.ObjectArray, null)
            },
            info.GetValue<float>("LoadFactor"),
            info.GetValue<int>("Version"),
            // No need to persist the comparer and hashcode provider
            null,
            null,
            info.GetValue<int>("HashSize"),
            // MemberReference to Arrays here
            new MemberReference(2),
            new MemberReference(3)).Write(writer);

        // 1, 2 and 3 are used for the class id and array ids.
        StringRecordsCollection strings = new(currentId: 4);

        new ArraySingleObject(2, ListConverter.GetPrimitiveConverter(keys, strings)).Write(writer);
        new ArraySingleObject(3, ListConverter.GetPrimitiveConverter(values, strings)).Write(writer);
    }

    /// <summary>
    ///  Writes a <see cref="NotSupportedException"/> in binary format.
    /// </summary>
    public static void WriteNotSupportedException(Stream stream, NotSupportedException exception)
    {
        using BinaryFormatWriterScope writer = new(stream);

        // We only serialize the message to avoid binary serialization risks.
        new SystemClassWithMembersAndTypes(
            new ClassInfo(1, Types.NotSupportedExceptionType, s_notSupportedExceptionMemberNames),
            new MemberTypeInfo[]
            {
                new(BinaryType.String, null),
                new(BinaryType.String, null),
                new(BinaryType.SystemClass, Types.IDictionaryType),
                new(BinaryType.SystemClass, Types.ExceptionType),
                new(BinaryType.String, null),
                new(BinaryType.String, null),
                new(BinaryType.String, null),
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.String, null),
                new(BinaryType.Primitive, PrimitiveType.Int32),
                new(BinaryType.String, null),
                new(BinaryType.PrimitiveArray, PrimitiveType.Byte)
            },
            new BinaryObjectString(2, Types.NotSupportedExceptionType),
            new BinaryObjectString(3, exception.Message),
            null,
            null,
            null,
            null,
            null,
            0,
            null,
            exception.HResult,
            null,
            null).Write(writer);
    }

    /// <summary>
    ///  Writes the given <paramref name="value"/> if supported.
    /// </summary>
    public static bool TryWriteFrameworkObject(Stream stream, object value)
    {
        return TryWrite(Write, stream, value);

        static bool Write(Stream stream, object value)
        {
            Type type = value.GetType();
            if (type.IsPrimitive)
            {
                WritePrimitive(stream, value);
                return true;
            }

            switch (value)
            {
                case string stringValue:
                    WriteString(stream, stringValue);
                    return true;
                case Array arrayValue:
                    return TryWriteArray(stream, arrayValue);
                case decimal decimalValue:
                    WriteDecimal(stream, decimalValue);
                    return true;
                case DateTime dateTime:
                    WriteDateTime(stream, dateTime);
                    return true;
                case TimeSpan timeSpan:
                    WriteTimeSpan(stream, timeSpan);
                    return true;
                case PointF point:
                    WritePointF(stream, point);
                    return true;
                case RectangleF rectangle:
                    WriteRectangleF(stream, rectangle);
                    return true;
                case Hashtable hashtable:
                    return TryWriteHashtable(stream, hashtable);
                case ArrayList arrayList:
                    return TryWriteArrayList(stream, arrayList);
                case NotSupportedException exception:
                    WriteNotSupportedException(stream, exception);
                    return true;
            }

            return type.IsGenericType
                && type.GetGenericTypeDefinition() == typeof(List<>)
                && TryWritePrimitiveList(stream, (IList)value);
        }
    }

    /// <summary>
    ///  Writes the given <paramref name="value"/> to stream, only types that have TypeConverters are supported.
    ///  This function is needed for the Clipboard serialization as Clipboard is not using TypeConverters.
    /// </summary>
    public static bool TryWriteDrawingPrimitivesObject(Stream stream, object value)
    {
        return TryWrite(Write, stream, value);

        static bool Write(Stream stream, object value)
        {
            switch (value)
            {
                case Point point:
                    WritePoint(stream, point);
                    return true;
                case SizeF sizeF:
                    WriteSizeF(stream, sizeF);
                    return true;
                case Size size:
                    WriteSize(stream, size);
                    return true;
                case Rectangle rectangle:
                    WriteRectangle(stream, rectangle);
                    return true;
                case Color color:
                    WriteColor(stream, color);
                    return true;
            }

            return false;
        }
    }

    public static bool TryWriteJsonData(Stream stream, object value)
    {
        if (value is not IJsonData jsonData)
        {
            return false;
        }

        using BinaryFormatWriterScope writer = new(stream);
        new BinaryLibrary(libraryId: 2, IJsonData.CustomAssemblyName).Write(writer);
        new ClassWithMembersAndTypes(
            new ClassInfo(1, $"{typeof(IJsonData).Namespace}.JsonData", [$"<{nameof(jsonData.JsonBytes)}>k__BackingField", $"<{nameof(jsonData.InnerTypeAssemblyQualifiedName)}>k__BackingField"]),
            libraryId: 2,
            new MemberTypeInfo[] { new(BinaryType.PrimitiveArray, PrimitiveType.Byte), new(BinaryType.String, null) },
            new MemberReference(idRef: 3),
            new BinaryObjectString(objectId: 4, jsonData.InnerTypeAssemblyQualifiedName)).Write(writer);

        new ArraySinglePrimitive<byte>(objectId: 3, jsonData.JsonBytes).Write(writer);

        return true;
    }

    /// <summary>
    ///  Simple wrapper to ensure the <paramref name="stream"/> is reset to its original position if the
    ///  <paramref name="action"/> throws.
    /// </summary>
    public static bool TryWrite<T>(Action<Stream, T> action, Stream stream, T value)
        => TryWrite(
            (s, o) => { action(s, o); return true; },
            stream,
            value);

    /// <summary>
    ///  Simple wrapper to ensure the <paramref name="stream"/> is reset to its original position if the
    ///  <paramref name="func"/> throws or returns <see langword="false"/>.
    /// </summary>
    public static bool TryWrite<T>(Func<Stream, T, bool> func, Stream stream, T value)
    {
        long position = stream.Position;
        bool success;

        try
        {
            success = func(stream, value);
        }
        catch (Exception ex) when (!ex.IsCriticalException())
        {
            Debug.WriteLine($"Failed to binary format: {ex.Message}");
            Debug.Assert(ex is ArgumentException or SerializationException, "Unexpected write exception.");
            success = false;
        }

        if (!success)
        {
            stream.Position = position;
        }

        return success;
    }
}
